Inner Mongolia anthracite lignite mill Inner Mongolia anthracite lignite mill Inner Mongolia anthracite lignite mill

The molecular structure of Inner Mongolia lignite utilizing XRD,

2017年9月1日  The chemicalstructural properties of Inner Mongolia lignite were investigated by utilizing Xray diffraction (XRD), high resolution transmission electron microscopy (HRTEM), X 2024年11月1日  What’s this? LRMC can be completely converted under mild conditions mainly by active H + Direct cleavage of CO bonds in aryl ethers into monomers was preferential Highly efficient catalytic hydrocracking of East Inner Mongolia 2017年9月1日  The chemicalstructural properties of Inner Mongolia lignite were investigated by utilizing Xray diffraction (XRD), high resolution transmission electron microscopy (HRTEM), X The molecular structure of Inner Mongolia lignite utilizing XRD, 2017年9月1日  A molecular structure model of oxidized Shengli lignite was constructed using ultimate analysis, 13C nuclear magnetic resonance spectrum, and Fourier transform infrared The molecular structure of Inner Mongolia lignite utilizing XRD,

Analysis of Lignite Character in Inner Mongolia China ResearchGate

2019年10月29日  The dry rolltype electrostatic coal beneficiation technology under high voltage is used to study the beneficiation of lowgrade and highash coal in Inner Mongolia, northern Understanding the structural properties of lignite during hydrothermal treatment would aid in predicting the subsequent behavior of coal during the pyrolysis, liquefaction, and gasification processes Here, hydrothermal treatment of Inner Effect of hydrothermal treatment on the carbon 2020年8月11日  Understanding the structural properties of lignite during hydrothermal treatment would aid in predicting the subsequent behavior of coal during the pyrolysis, liquefaction, and Effect of hydrothermal treatment on the carbon structure of Inner 2019年4月24日  The Inner Mongolia lignite was selected as the feedstock and dewatered by hydrothermal, fixedbed, and microwave upgrading techniques The physicochemical Evolution of Physical and Chemical Structures in Lignite during

The molecular structure of Inner Mongolia lignite utilizing XRD,

2017年9月1日  The chemicalstructural properties of Inner Mongolia lignite were investigated by utilizing Xray diffraction (XRD), high resolution transmission electron microscopy (HRTEM), X 2022年7月1日  Lowrank coal flocculation improved by enhancing hydrophobic properties Self aggregation behavior of lignite and anthracite revealed Anthraciteanthracite adhesion force is Insight into the selfaggregation behavior of lignite and anthracite groups in lignite were determined using FTIR spectroscopy Finally, changes in the lignite structure during hydrothermal treatment were determined 2 Experimental 21 Materials Inner Mongolia lignite (IM) from the Inner Mongolia province, China was ground to\02 mm and stored under a cryogenic environment The proximate and ultimateEffect of hydrothermal treatment on the carbon structure of Inner 2019年8月1日  Beulah lignite obtained nearly 100% carbon conversion at 1100 °C and 20% CO 2 , Yallourn coal at 1200 °C and 20% CO 2 , and Inner Mongolia lignite at 1300 °C and 20% CO 2 or at 1200 °C and 40% Comparison of entrained flow CO 2 gasification behaviour of three

Future of lignite resources: a life cycle analysis

2016年9月23日  Lignite is a lowquality energy source which accounts for 13 % of China’s coal reserves It is imperative to improve the quality of lignite for largescale utilization To further explore and analyze the influence of various key processes on the environment and economic costs, a lignite drying and compression technology is evaluated using an integrated approach 2017年9月1日  The chemicalstructural properties of Inner Mongolia lignite were investigated by utilizing Xray diffraction (XRD), high resolution transmission electron microscopy (HRTEM), Xray photoelectron spectrum (XPS) and solidstate 13 C nuclear magnetic resonance spectrum (NMR) The aromaticity of the lignite coal determined by XRD was 07 and compared well with the 13 The molecular structure of Inner Mongolia lignite utilizing XRD, solid 2016年11月1日  The propensity for spontaneous combustion of Inner Mongolia lignite irradiated in microwave irradiation was investigated The functional groups on the lignite surface were obtained by FTIR and XPS spectra, and the pore structures of irradiated lignite were measured using N 2 adsorption/desorption method The propensity for spontaneous combustion of lignite Effect of microwave irradiation on the propensity for spontaneous 2022年6月12日  The modification experiment of Inner Mongolia Baiyinhua lignite by hot air at 200 ℃ for 1 h was carried out Thestructural changes of Baiyinhua lignite before and after thermal modification were The influence of thermal modification on lignite structure by FTIR

Concentration and distribution of trace elements in lignite from

Bureau at Xilinhaote, Inner Mongolia in 1998, is a paragenetic coal/Ge deposit, which was also named ‘the paragenetic germanium deposit in Shenli Coalfield' in2024年2月23日  The object of the study is lignite Analytical testing techniques, such as elemental analysis, 13C nuclear magnetic resonance (13C NMR) spectroscopy, Fourier transform infrared spectroscopy (FTIR), Xray photoelectron spectroscopy (XPS), and highresolution transmission electron microscopy (HRTEM), were used to acquire information on the structural Structural Characterization and Molecular Model Construction of Lignite Inner Mongolia lignite (IM) was carried out in a lab autoclave The distribution of carbon in the lignite was monitored via solid 13C nuclear magnetic resonance spectroscopy, and the functional Effect of hydrothermal treatment on the carbon structure of Inner T1 Comparison of entrained flow CO2 gasification behaviour of three lowrank coals – Victorian brown coal, Beulah lignite, and Inner Mongolia lignite AU Xu, Tao AU Pisupati, Sarma V AU Bhattacharya, Sankar PY 2019/8/1 Y1 2019/8/1Comparison of entrained flow CO Monash University

Highly efficient catalytic hydrocracking of East Inner Mongolia lignite

2024年11月1日  Catalytic hydrocracking (CHC) of lignite requires milder conditions than the direct liquidation process, showing considerable advantages, in terms of improved total conversion, target selectivity and atomic economy [18], [19]As is known, extremely complex crosslinked structure and composition of lignite have restricted its comprehensive researches2023年5月1日  Find 278 researchers and browse 20 departments, publications, fulltexts, contact details and general information related to Inner Mongolia University of Technology China Inner Mongolia University of Technology China ResearchGate2022年7月1日  Finally, the lignite and anthracite models constructed by Wang and Xiang et al [28], [29] were adopted because they could represent the salient features of Inner Mongolia lignite and anthracite The molecular models of lignite and anthracite are shown in Fig 2 Download: Download highres image (378KB) Download: Download fullsize image; Fig 2Insight into the selfaggregation behavior of lignite and anthracite 2007年7月1日  REE Geochemistry of the Cretaceous lignite from Wulantuga Germanium Deposit, Inner Mongolia, Northeastern China July 2007 International Journal of Coal Geology 71(2):329344(PDF) REE Geochemistry of the Cretaceous lignite from Wulantuga

Combustion performance of semicoke from Inner Mongolia lignite

2015年5月1日  In order to study the clean and efficient use of lignite semicoke and its combustion performance, an integrated experimental apparatus for Inner Mongolia lignite pyrolysis was implemented to 2019年8月1日  Beulah lignite obtained nearly 100% carbon conversion at 1100 °C and 20% CO 2, Yallourn coal at 1200 °C and 20% CO 2, and Inner Mongolia lignite at 1300 °C and 20% CO 2 or at 1200 °C and 40% CO 2 Yallourn coal released the least HCN, NH 3, and H 2 S, Beulah lignite released the most NH 3, and Inner Mongolia released the most H 2 parison of entrained flow CO2 gasification behaviour of three Comparison of entrained flow CO 2 gasification behaviour of three lowrank coals – Victorian brown coal, Beulah lignite, and Inner Mongolia lignite / Xu, Tao; Pisupati, Sarma V; Bhattacharya, Sankar In: Fuel, Vol 249, 01082019, p 206218 Research output: Contribution to journal › Article › peerreviewComparison of entrained flow CO Penn StateAbstract The chemicalstructural properties of Inner Mongolia lignite were investigated by utilizing Xray diffraction (XRD), high resolution transmission electron microscopy (HRTEM), Xray photoelectron spectrum (XPS) and solidstate 13C nuclear magnetic resonance spectrum (NMR) The aromaticity of the lignite coal determined by XRD was 07 and compared well with the 13C The molecular structure of Inner Mongolia lignite utilizing XRD,

Solidstate C13 CP/MAS NMR study of Baganuur coal, Mongolia:

2010年5月1日  Biomarker analysis was done on a composite sample using gas chromatography and mass detector (7890A and 5975C MSD) and following the methodology described in Singh and Kumar [55] 2022年11月1日  Request PDF Mineral matter transition in lignite during ashing process: A case study of Early Cretaceous lignite from the Hailar Basin, Inner Mongolia, China Investigation of mode of Mineral matter transition in lignite during ashing process: A case 2007年7月1日  Concentration and distribution of trace elements in lignite from the Shengli Coalfield, Inner Mongolia, China: Implications on origin of the associated Wulantuga Germanium DepositConcentration and distribution of trace elements in 2022年11月15日  Therefore, in this study, lignite samples collected from the Hailar Basin, Inner Mongolia, China, have been investigated to reveal the interaction between NME and organic matter during ashing process at different ashing temperatures and to elucidate the mechanism of mineral phase transitionMineral matter transition in lignite during ashing process: A case

Synergistic Catalytic Effect of Inherent Minerals and Specific

2019年3月21日  Na Li Department of Chemical Engineering, Inner Mongolia University of Technology, Inner Mongolia Key Laboratory of HighValue Functional Utilization of Low Rank Carbon Resource, Inner Mongolia Key Laboratory of Industrial Catalysis, Hohhot, Inner Mongolia, China Correspondence View further author information,Macerals of Shengli Lignite in Inner Mongolia of China and Their Combustion Reactivity YingYueTeng, 1 YuZheLiu, 1 QuanShengLiu, 1 andChangQingLi 2 College of Chemical Engineering, Inner Mongolia University of Technology, Inner Mongolia Key Laboratory of Industrial Catalysis, Huhhot, Inner Mongolia , ChinaResearch Article Macerals of Shengli Lignite in Inner Mongolia 2015年1月1日  When the environment gradually becomes anoxic, anaerobic bacteria can ferment the celluloses to generate intermediate products such as CH 4, CO 2, C 3 H 7 COOH and CH 3 COOH These hydrolysis products and fermentation products may react with other plant decomposition products to form more complex substances and participate in coalificationGeological Characteristics of Coal SpringerLink2019年8月1日  Beulah lignite obtained nearly 100% carbon conversion at 1100 °C and 20% CO 2, Yallourn coal at 1200 °C and 20% CO 2, and Inner Mongolia lignite at 1300 °C and 20% CO 2 or at 1200 °C and 40% CO 2 Yallourn coal released the least HCN, NH 3, and H 2 S, Beulah lignite released the most NH 3, and Inner Mongolia released the most H 2 parison of entrained flow CO2 gasification behaviour of three

Structure evolution characteristics of Inner Mongolia coal char

2016年12月1日  The rapid pyrolysis chars of an Inner Mongolia (Neimeng) lignite were prepared in a drop tube furnace, and the coal char gasification experiments with CO2 were conducted using a highfrequency 2014年6月1日  Effects of alkali, alkaline earth and transition metals (K, Ca, Ni, Fe) on the steam gasification of a lignite char were investigated by a fixedbed reactor, and the carbon conversions with time Effects of Several Metals Species on Steam Gasification Behavior of 2007年7月2日  As far as REE geochemistry of highGe coal is concerned, Qi et al, 2002a, Qi et al, 2002b found that Ge contents were negatively correlated with ratios of LREE/HREE, La N /Yb N, and Gd N /Yb N (N stands for chondrite normalization) in the Gebearing coal of the Lincang Germanium Deposit (LGD), Yunnan, Southwestern China (Fig 1) HREE is relatively enriched REE Geochemistry of the Cretaceous lignite from Wulantuga KOMPASS, the global leading provider of innovative B2B data and digital marketing solutions to buyers, research, sales and marketing teams worldwideBusiness tools and solutions designed for the global marketplaceInner Mongolia Yitai Group Co, Ltd Kompass

Effect of hydrothermal treatment on the carbon structure of Inner

groups in lignite were determined using FTIR spectroscopy Finally, changes in the lignite structure during hydrothermal treatment were determined 2 Experimental 21 Materials Inner Mongolia lignite (IM) from the Inner Mongolia province, China was ground to\02 mm and stored under a cryogenic environment The proximate and ultimate2019年8月1日  Beulah lignite obtained nearly 100% carbon conversion at 1100 °C and 20% CO 2 , Yallourn coal at 1200 °C and 20% CO 2 , and Inner Mongolia lignite at 1300 °C and 20% CO 2 or at 1200 °C and 40% Comparison of entrained flow CO 2 gasification behaviour of three 2016年9月23日  Lignite is a lowquality energy source which accounts for 13 % of China’s coal reserves It is imperative to improve the quality of lignite for largescale utilization To further explore and analyze the influence of various key processes on the environment and economic costs, a lignite drying and compression technology is evaluated using an integrated approach Future of lignite resources: a life cycle analysis2017年9月1日  The chemicalstructural properties of Inner Mongolia lignite were investigated by utilizing Xray diffraction (XRD), high resolution transmission electron microscopy (HRTEM), Xray photoelectron spectrum (XPS) and solidstate 13 C nuclear magnetic resonance spectrum (NMR) The aromaticity of the lignite coal determined by XRD was 07 and compared well with the 13 The molecular structure of Inner Mongolia lignite utilizing XRD, solid

Effect of microwave irradiation on the propensity for spontaneous

2016年11月1日  The propensity for spontaneous combustion of Inner Mongolia lignite irradiated in microwave irradiation was investigated The functional groups on the lignite surface were obtained by FTIR and XPS spectra, and the pore structures of irradiated lignite were measured using N 2 adsorption/desorption method The propensity for spontaneous combustion of lignite 2022年6月12日  The modification experiment of Inner Mongolia Baiyinhua lignite by hot air at 200 ℃ for 1 h was carried out Thestructural changes of Baiyinhua lignite before and after thermal modification were The influence of thermal modification on lignite structure by FTIRBureau at Xilinhaote, Inner Mongolia in 1998, is a paragenetic coal/Ge deposit, which was also named ‘the paragenetic germanium deposit in Shenli Coalfield' inConcentration and distribution of trace elements in lignite from 2024年2月23日  The object of the study is lignite Analytical testing techniques, such as elemental analysis, 13C nuclear magnetic resonance (13C NMR) spectroscopy, Fourier transform infrared spectroscopy (FTIR), Xray photoelectron spectroscopy (XPS), and highresolution transmission electron microscopy (HRTEM), were used to acquire information on the structural Structural Characterization and Molecular Model Construction of Lignite

Effect of hydrothermal treatment on the carbon structure of Inner

Inner Mongolia lignite (IM) was carried out in a lab autoclave The distribution of carbon in the lignite was monitored via solid 13C nuclear magnetic resonance spectroscopy, and the functional T1 Comparison of entrained flow CO2 gasification behaviour of three lowrank coals – Victorian brown coal, Beulah lignite, and Inner Mongolia lignite AU Xu, Tao AU Pisupati, Sarma V AU Bhattacharya, Sankar PY 2019/8/1 Y1 2019/8/1Comparison of entrained flow CO Monash University

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